Enhancement of microgrid operation by considering the cascaded impact of communication delay on system stability and power management.

• Investigation of the cascaded impact of time delay on MG stability and impact of stability on power management. • Including the stability criteria in the MG power management optimisation. • Providing the solution to maintain the stability while optimising the MG cost. • Improving the communication time delay to improve stability. • Adding inter-operability to MG control elements to reduce engineering time and communication delay. Power management, system stability and communication structure are three key aspects of microgrids (MGs) that have been explored in many research studies. However, the cascaded effect of communication structure on system stability followed by the impact of stability on the power management has not been fully explored in the literature yet and needs more attention. This paper not only explores this cascaded impact, but also provides a comprehensive platform to optimally consider three layers of MG design and operation from this perspective. For generation cost minimization and stability assessment, the proposed platform uses an adaptive particle swarm optimization (PSO) while a new class of data exchange scheme based on IEC 61850 protocol is proposed to reduce the communication time delays among the inverters of distributed generations and the MG control center. This paper also considers the system stability using small-signal model of a MG in a real-time manner as an embedded function in the PSO. In this context investigations have been conducted by modeling an isolated MG with solar farm, fuel cell generator and micro-turbine in MATLAB Simulink. Detailed simulation results indicate the proposed power and stability management method effectively reduces the MG generation cost through maximizing the utilization of the available renewable generations while considering system stability. [ABSTRACT FROM AUTHOR]